DE112004001539B4 - Speech recognition in a vehicle radio system - Google Patents

Abstract

Vehicle radio system comprising:
a radio receiver configured to receive a radio signal from a broadcasting station;
a microphone configured to receive a sound from an operator of the vehicle radio system and to generate a signal derived from the sound; and
a tuning module configured to receive the radio signal from the radio receiver and the sound-derived signal from the microphone; wherein the tuning module comprises:
a memory module configured to store a first phoneme string and a first channel number associated with the first phoneme string;
a speech recognition engine configured to compare a phoneme in the sound-derived signal with the first phoneme string stored in the memory module; and
a tuner adapted to tune the radio receiver to the first channel number when the speech recognition engine identifies the phoneme as the first phoneme string,
characterized,...

Description

The The present invention generally relates to speech recognition and more particularly relates to speech recognition in a vehicle radio system.

The voice-enabled User interfaces for audio, visual or audiovisual radio systems are becoming increasingly popular especially in environments where the user's hands are otherwise involved Activities, with the control of a vehicle (for example a motor vehicle) are engaged are. Such voice-based user interfaces are currently being developed used to measure numerous parameters of radio systems including volume, fading, Control balance and channel selection. Radio systems with voice-based However, user interfaces are generally fixed Command set such as "louder", "Radio 105.1 FM" or "Radio 22 XM" limited, and in the latter case, the frequency or channel number must be within a range of predetermined numerical values. Even if such fixed instruction sets For AM / FM radio systems, sufficient frequency / channel control is their use in digital radio systems such as For example, XM or Digital Audio Broadcast (DAB) is limited.

digital Provide audio or digital television (i.e., digital system) services a big Number of channels, what it is for makes a user difficult to get a specific channel number to notice. Furthermore advertise these numerous radio and television stations as part of their branding strategy often for the station name instead for one Frequency or a channel number. Therefore, it may be that a user rather with a station name (for example, CNN, MSNBC, WTBS, ESPN, ABC, NBC, FOX and CBS) is familiar as with the frequency or channel number.

Radio System Indicators bring the importance of station names and generate these station identification names alone on the display or generate these station identification names in combination with the channel number. This ability, the To display station names is possible since the name of a channel or a frequency is generally in the data stream received by the digital radio service becomes. Accordingly, the most intuitive voice command to change a radio channel, thus use a format such as "Radio channel <channel name>". Voice-based radio systems with a fixed instruction set, however, are unable to to provide such an intuitive command base as the channel names generally after an original one Change the installation of the radio system.

Radio stations currently radiate audio signals in digital or analog formats out, and radiate in some cases Data, which is also known as datacasting (for example, digital Satellite audio radio services, terrestrial digital audio broadcasting, FM RDS and digital television and the like). Datacasting schemes are currently working for one Variety of messages used, covering a wide range of Cover the additional services Audio channels, GPS correction signals, paging, MUSAC, program related data, advertising, Weather and traffic information includes but is not limited to limited are. While Datacasting schemes also use station identifications as text messages for one Display on a radio or television screen using Datacast No voice recognition systems or similar techniques are available which for radio systems, the station identifications sent by Datacast for a voice-based Fully use user control of a channel or station selection or format.

The DE 199 42 869 A1 discloses a radio receiver for receiving a digital radio signal capable of receiving voice commands from a user and recognizing them by means of a phoneme-based voice pattern recognition, so that the function of the radio receiver can be controlled. The voice pattern identifier comprises a comparison of the voice command with a phoneme pattern generated by the radio receiver by transcription of a functional part of the radio signal.

The US 5,752,232 A describes a voice-controlled system to which the commands necessary to carry out the voice control are supplied by means of phonetic spelling.

In view of the foregoing, it is desirable to create a phonetic transcription to present information such as channel or station information for transmission via datastast to radio system receivers employing speech recognition. It is further desired that mechanisms be employed to optimize the performance of the entire radio system by providing the ability to modify the phonetic representation of the datacast in the event of a name or channel change, such that the largest number of speech recognition processes of voices, improved accuracy, and possibly to enable multiple phonetic representations for different accents and languages. Accordingly, it is desired to provide a dynamic speech recognition capability for a radio channel name. In addition, it is desired to optimize the accuracy of such a channel name speech recognition mieren. Furthermore, other desirable features and characteristics of the present invention will become apparent from the following detailed description of the invention and the appended claims, taken in conjunction with the accompanying drawings and this background of the invention.

It The object of the present invention is an improved vehicle radio system or to provide a method for operating a vehicle radio system, which in a simple and efficient way reliable detection of voice commands.

The solution This object is achieved by a vehicle radio system according to claim 1 and a method for operating a vehicle radio system according to Claim 10.

One Vehicle radio system is in accordance with the present Invention provided. The vehicle radio system includes a Radio receiver which is adapted to receive a radio signal from a broadcasting station to receive a microphone that is trained to make a sound of to receive an operator of the vehicle radio system and one of generate the signal derived from the sound and a tuning module, configured to receive the radio signal from the radio receiver and to receive the signal derived from the sound from the microphone. The tuning module comprises a memory module that is configured around a first phoneme string and a first one belonging to the first phoneme string To store channel number, a speech recognition engine that is trained is to pick up a phoneme in the signal derived from the sound first phoneme string stored in the memory module compare, and a Abstimmein direction, which is designed to the radio receiver to tune to the first channel number when the speech recognition engine identifies the phoneme as the first phoneme sequence.

One Method for operating the vehicle system is also according to the present Invention provided. The method comprises the steps that a radio signal is received from a broadcasting station, a sound is received by an operator of the vehicle radio system and one of the signal derived from the sound is generated. In addition, the process includes the steps that a first phoneme episode and one to the first Phonem series belonging first channel number to be stored, a phoneme in that of the According to derived signal is compared with the first phoneme sequence, and on the first Channel number is tuned when comparing the phoneme in the sound with the first phoneme episode identifies the phoneme as the first phoneme sequence. The present invention Hereinafter, in conjunction with the following drawings described in which like reference numerals designate like elements, and:

1 Fig. 10 is a block diagram showing a vehicle radio system according to an exemplary embodiment of the present invention;

2 is a flowchart illustrating a method for operating the vehicle radio system in 1 according to an exemplary embodiment of the invention; and

three FIG. 10 is a flowchart showing a method of operating a broadcasting system according to an exemplary embodiment of the present invention.

The The following detailed description of the invention is merely exemplary Nature and does not intend the invention or the application and uses to limit the invention. Furthermore, there is no intention to be described by any or implied theory, in the preceding background or the following detailed description to be.

1 is a simplified block diagram of a vehicle radio system 10 according to an exemplary embodiment of the invention. The radio system 10 is designed to receive signals with an antenna 14 a radio receiver 16 to recieve. The signals are preferably transmitted by a digital broadcasting service 12 which may be a satellite broadcast service (for example XM satellite radio, satellite radio or television system) or a terrestrial broadcast service (for example Digital Audio Broadcast (DAB)). While the radio receiver 16 In the context of a digital radio receiver, the present invention is applicable to other non-digital systems if suitable encoders / decoders are provided for efficient operation of the speech recognition engine of a particular type of data (e.g. FM RDS (Radio Data System)). In addition, while the radio receiver described in this detailed description is an audio system, the present invention is applicable to a visual system (for example, television) or a combination audio / visual system. For example, the present invention is applicable to changing a TV channel or a TV program (for example, "Change Channel to CNN" or "Change Program to 60 Minutes"). Further, while the description relates to a motor vehicle, any number of ground, marine, aerospace or space vehicles may include the vehicle radio system of the present invention, and the methods of the present invention may be practiced in any number be implemented on ground, sea, air or space vehicles.

The digital radio receiver 16 includes components and subsystems (not shown) of a conventional nature that are used by the broadcasting service 12 receive transmitted signals. The digital radio receiver 16 Detects and decodes the signals to produce any number of formats, such as data, audio, visual or audiovisual formats. The digital radio receiver 16 Preferably also includes amplifiers, speakers or displays to represent the transmitted signal in a format that the user of the digital radio receiver 16 can recognize. The transmitted signal from the broadcast station 12 preferably includes station and channel identifiers and other information related to the type of information broadcast by the service. For example, the information may identify the channel as pop music, classical music, or the like.

As previously described in this detailed description, this is done by the antenna 14 received signal to the digital radio receiver 16 which decodes the digital transmission and for the user of the vehicle radio system 10 Audio and / or visual information generated. A voting module 18 is with the digital radio receiver 16 coupled and is with a microphone 20 coupled via which the user of the vehicle radio system 10 Voting information and other functional commands (such as volume, fading, balance and the like) can communicate.

The voting module 18 has a speech recognition engine 22 on, the signals from the microphone 20 receives. The speech recognition engine 22 can in the digital radio receiver 16 or it can be a separate unit, and the speech recognition engine 22 can functional voice commands of the vehicle radio system 10 who are not voting commands, identify. For example, the speech recognition engine 22 used to make a volume command, a fade command, a balance command, or other functional commands of the vehicle radio system 10 to identify.

The voting module 18 also has a memory module 24 on top of that with the speech recognition engine 22 is coupled and is designed to store at least information representing the program information for channels through the digital radio receiver 16 are received. The speech recognition engine 22 is additionally with a tuning device 26 coupled, which serves the digital radio receiver 16 to tune to a particular channel.

In an exemplary embodiment, which is not part of the invention, the broadcasting service includes 12 transmitted digital data stream Sequences of phonemes describing channel names or program formats (for example, sports, news, conversations, music, etc.). The vehicle radio system 10 stores the sequences of phonemes having channel numbers associated with each of the phoneme sequences in the memory module 24 , The phonemes can be stored in a table, and the radio system 10 can the table as an input to the speech recognition engine 22 use. The phoneme table stored in the radio is generated dynamically based on the currently available channels. Since channel names are rarely changed, they can be changed by the digital radio service 12 transmitted sequences of phonemes with linguistic techniques known to those skilled in the art, are "manually" optimized to reflect the typical pronunciation (s) of the channel name.

The speech recognition engine 22 is adapted to the phonemes in an audio command issued by the user, with the phoneme sequences shown in the table of the memory module 24 are stored, compare. If a match is found between the user command and the phoneme stored in the table, the tuner is right 26 the radio system 10 to the channel corresponding to the command derived from the sound. For example, when a user commands "Radio Channel CNN," the speech recognition engine identifies 22 the words "radio channel" based on a fixed instruction set contained in a fixed instruction table 30 of the memory module 24 is stored. The variable part "CNN" is also used with phonemes in the channel table 28 compared to available channels. The speech recognition engine 22 is trained to the tuning device 26 in accordance with the phoneme sequence "CNN" in the table with the channel number in accordance and adjust them to this, so that the corresponding signal transmitted by the broadcasting service 12 is transmitted by the radio system 10 Will be received.

According to the broadcasting service 12 Channel names in a phonetic spelling. This allows the speech recognition engine 22 in the vehicle radio system 10 to translate a sequence of phonemes independently. The availability of phonetic spelling improves speech recognition accuracy as compared to prior availability limited to the readable channel name. Compared to transmitting phonemes, phonetic spelling is more universal, works with different speech recognition engines, and reduces those to the vehicle radio system 10 transferred amount of data. For example, it would be for an automobile It is difficult for a speech recognition engine to translate the channel names "the 90s" or "ESPN messages" into a sequence of phonemes suitable for recognizing the typical pronunciation of the channel name. However, if the phonetic spelling of "the nineties" or "ESPN messages" is provided to an onboard speech recognition engine, an improved sequence of phonemes can be translated to improve the recognition rate.

Both embodiments have in common that the radio service 12 preferably in addition to the channel names to be displayed on the radio display, transmits channel name information in a format specifically designed for use with speech recognition engines. For applications involving two-way radio transmissions, as described below in this detailed description, a transmitter may be used 32 be provided to the user of the radio receiver 16 to enable with a radio device 12 or another information providing device.

In 2 is a flowchart 40 provided that the operation of the vehicle radio system 10 in 1 according to an exemplary embodiment of the present invention. The digital radio receiver 16 receives a data stream from the broadcast service 42 , The radio builds a phoneme / channel table from the digital data stream 44 , which is then stored in a section of the memory module 46 , The microphone receives an audio command 48 , For example, the microphone receives "Radio Channel The Heart". The speech recognition engine converts the command into phonemes 50 compares the phonemes to the fixed instruction set stored in the section of the memory module 52 , and recognizes "Radio Channel" as a command. The speech recognition engine subsequently searches the channel list phoneme for the closest match with an audio phoneme (for example, "The Heart") 54 , Once the closest match from the search is determined, the tuner is directed to the associated channel 56 (For example, if the search determines that the closest match is channel "23", the channel will go to "channel 23 As described earlier in this detailed description, if a phoneme database is not provided by a broadcast service, a phonetic database may be developed to serve a similar purpose In addition, various pronunciations or forms of a channel name may be provided be to accommodate different dialects, and the broadcasting service 12 can transmit more than one sequence of phonemes or phonetic spellings for the same channel number.

The Speech recognition interface can also work for other tasks than one Channel tuning or for Additional tasks to be used for channel tuning. For example, one could also Song title or artist name transmitted phonetically or by phoneme In order to enable a user in this way, the command is given to the radio to grant, periodically or continuously after a certain To search song or artist and focus on a particular channel whenever his / her favorite song / artist plays becomes.

three is a flowchart 60 describing the operation of a broadcasting system, which includes the functionality of the vehicle radio system in 1 supported. The broadcast system selects a station or channel name or creates a station or channel name 62 , The broadcasting system then employs a conversion system known to those skilled in the art to convert the selected name into a phonetic representation or group of phonemes representing the selected name 64 , As noted previously, a broadcast facility may select more than one representation for a name to allow for variations in the speech or speech of different users. For example, a user in Mexico may use a different word to describe a particular type of program than a user in the United States of America would. As noted previously in this detailed description, when the system is used for program selection and receiver tuning, the broadcasting system may be configured to provide a number of phonetic representations of program words or music titles. And in the case of using electronic commerce, a number of words would be phonetically encoded to do such a trade.

Furthermore, in three generates a data packet 66 comprising the phonetic or phonemic representations of the data to be transmitted, and also including the associated channel or frequency information. The data packet is then included in the normal broadcast data stream 68 , As an alternative, the data packet could be broadcast separately. For example, the data packet could be broadcast separately on a sideband of the transmitted signal, on a control channel, or as a sub-band signal or the like. The data is then transmitted using a selected broadcasting technique 70 ,

The digital radio receiver 16 Receives the transmitted signal containing the phonetic data and processes the data as described in US Pat related descriptions 1 and 2 is executed 72 , The broadcasting system using its own receiver can rate the quality of the phonetic or phonemic data with respect to the performance of the recipient's speech recognition engine and the functionality of the tuning mechanism of the radio 74 , If the performance is acceptable, the broadcast system maintains the current phonetic representation 78 until an event such as a station name or station identifier change dictates a change. If the performance of the speech recognition engine is unacceptable, this information is returned to the conversion system for further improvement 64 and the process is repeated. If the system is to be used in a different context, such as electronic commerce, the transmitter associated with the digital radio receiver of the vehicle radio system may be used to carry out a two-way transmission of other data to the broadcast system, in which case the feedback to the radio station suitable recipient of the electronic commerce broadcasting system.

While the Invention in the context of a digital radio or television receiver and has been disclosed, the voice recognition function has different Applications on. For example, the transmitting station may be a dealer, the over electronic Trade works. In a two-way radio environment can be dynamic constructed tables with sequences of phonemes are used to a functionality to simplify mobile trading on a radio. Rather than user interactions on fixed instruction sets restrict, which only allow predetermined answers "yes" and "no" can be added phonemes downloaded from a mobile commerce application or provide phonetic spellings with "intelligent" dialogues. For example, could the application at an imaginary Example of buying roses the color of roses that bought to be asked. The provider of mobile trading would be the phonemes / phonetic Spellings for "red", "white" and "yellow" on the vehicle radio system download to allow the user to ask the question natural Way to answer. The answer choices would be specific to each answer selection transferred to the vehicle within a dialog in a mobile trade become.

While in the foregoing detailed description of the invention exemplary embodiments It should be noted that a large number of variations exist. It should also be noted that the exemplary embodiment or exemplary embodiments are only examples and do not intend to limit the scope of protection Applicability or embodiment of the invention to any Way to restrict. Instead The foregoing detailed description sets one skilled in the art suitable plan ready to an exemplary embodiment to implement the invention. It should be noted that various changes the function and the arrangement of elements that in an exemplary embodiment are described performed can be without departing from the scope of the invention as set forth in the appended claims.

Claims (18)

A vehicle radio system, comprising: a radio receiver configured to receive a radio signal from a broadcasting station; a microphone configured to receive a sound from an operator of the vehicle radio system and to generate a signal derived from the sound; and a tuning module configured to receive the radio signal from the radio receiver and the sound-derived signal from the microphone; wherein the tuning module comprises: a memory module configured to store a first phoneme string and a first channel number associated with the first phoneme string; a speech recognition engine configured to compare a phoneme in the sound-derived signal with the first phoneme string stored in the memory module; and a tuner configured to tune the radio receiver to the first channel number when the speech recognition engine identifies the phoneme as the first phoneme string, characterized in that the first phoneme string is a phonetic spell of a first channel name derived from the first phoneme string Broadcasting station is transmitted, and that the broadcasting station has a receiver for receiving the first phoneme sequence in order to evaluate and improve the quality of the transmitted first phoneme sequence. Vehicle radio system according to claim 1, wherein the Memory module is adapted to a second phoneme sequence and a belonging to the second phoneme sequence store second channel number; the speech recognition engine is trained to the phoneme in the derived from the sound Signal with the second phoneme sequence, which is stored in the memory module to compare; and the Tuning device is adapted to the radio receiver to tune the second channel number if the speech recognition engine identifies the phoneme as the second phoneme sequence. A vehicle radio system according to claim 2, wherein the Memory module is adapted to a third phoneme sequence and a belonging to the third phoneme series save third channel number; the speech recognition engine is trained to the phoneme in the derived from the sound Signal with the third phoneme sequence stored in the memory module is to compare; and the tuning device formed is to the radio receiver to tune to the third channel number when the speech recognition engine identifies the phoneme as the third phoneme sequence. Vehicle radio system according to claim 1, wherein the Memory module is adapted to a second phoneme sequence and a belonging to the second phoneme series save first program format; the speech recognition engine is trained to the phoneme in the derived from the sound Signal with the second phoneme sequence, which is stored in the memory module to compare; and the Tuning device is adapted to the radio receiver to tune a second channel number associated with the first program format, if the speech recognition engine uses the phoneme as the second phoneme string identified. Vehicle radio system according to claim 4, wherein the first Program format is a sports program format. Vehicle radio system according to claim 1, wherein the radio signal, that transmitted by the broadcasting service is a digital radio signal. The vehicle radio system of claim 1, wherein the broadcast service is a satellite broadcasting service. Vehicle radio system according to claim 1, wherein the Memory module is adapted to a second phoneme sequence and a belonging to the second phoneme series to store first functional command; and the speech recognition engine is trained to the phoneme in the derived from the sound Signal with the second phoneme sequence, which is stored in the memory module, and compare the first request functional command when the speech recognition engine identifies the phoneme as the second phoneme sequence. Vehicle radio system according to claim 8, wherein the functional Command a volume command is. Method for operating a vehicle radio system, that includes the steps that a radio signal from a broadcasting station Will be received; a sound from an operator of the vehicle radio system Will be received; a derived from the sound signal from the Is generated loud; a first phoneme episode and one to the belonging to the first phoneme series first channel number are stored; a phoneme in that of the sound derived signal compared with the first phoneme sequence becomes; and is tuned to the first channel number, if the Compare the phoneme in the phoneme with the first phoneme sequence identifies the phoneme as the first phoneme sequence, thereby in that the first phoneme sequence is a phonetic spelling a first channel name transmitted by the broadcasting station will, and that the broadcaster uses the first phoneme sequence a recipient receives to the quality of the transferred evaluate and improve on the first phoneme episode. Method according to claim 10, that further the steps includes that the memory module is formed, by a second phoneme string and one to the second phoneme string associated store second channel number; the phoneme in that of the According to derived signal compared with the second phoneme sequence becomes; and the radio receiver is tuned to the second channel number when comparing of the phoneme in the phoneme with the second phoneme sequence the phoneme identified as the second phoneme sequence. Method according to claim 11, that further the steps includes that the memory module is formed, by a third phoneme string and a third one belonging to the third phoneme string To store channel number; the phoneme in the sound derived from the sound Signal is compared with the third phoneme sequence; and of the radio receiver is tuned to the third channel number when comparing of the phoneme in the phoneme with the third phoneme sequence the phoneme identified as the third phoneme sequence. Method according to claim 10, that further the steps includes that a second phoneme sequence and a belonging to the second phoneme series first program format are stored; the phoneme in that signal derived from the sound is compared with the second phoneme sequence becomes; and the radio receiver tuned to a second channel number associated with the first program format when comparing the phoneme in that derived from the sound Signal with the second phoneme string the phoneme as the second phoneme string identified. The method of claim 13, wherein the first program format is a sports program format. The method of claim 10, wherein the radio signal is a digital radio signal. The method of claim 10, wherein the broadcast service is a satellite broadcasting service. Method according to claim 10, that further the steps includes that a second phoneme sequence and a belonging to the second phoneme series stored first functional command; and the phoneme in the signal derived from the sound with the second phoneme string is compared; and the first functional command requested when comparing the phoneme in that derived from the sound Signal with the second phoneme sequence the phoneme as the second phoneme sequence identified. The method of claim 17, wherein the functional Command a volume command is.